DE3403302C2 - - Google Patents

Description

The invention relates to an AC current limiter, between two different types or phases of Power system lines is switched and following Features: A first series connection Capacitance and inductance, their series resonance frequency is matched to the AC frequency, connects the energy system lines; a second series connection, the at least one inductor or one capacitance as well Another impedance is to the first rows circuit connected in parallel; a normally open one and closing closes when an error occurs device for the electrical connection of two points is so between the two series connections orders that when closing or connecting the points at least one resonant circuit, either consisting of the Capacitance of the first series connection and the inductance the second series connection, or consisting of the  Inductance of the first series connection and the capacitance the second series connection is formed.

Such an AC limiter is from the JP-PS 9 87 109 known. In particular there is one Embodiment with a bridge AC limiter indicated that in each phase between two different Power system cables is used and the two Sets of capacitors and inductors, where each set is a series connection of an inductor (Choke) and a capacitor. The respective Connections in each series connection are with each other connected, via a series connection of one Locking device consisting of an inverted Parallel connection of silicon controlled rectifiers and a resistance.

Such a conventional AC limiter works usually like two sets of series resonance circuits for the AC frequency or mains frequency of the various power system lines that do not operate the locking devices and the resistor in parallel are connected to each other. As a result, the AC current limiter, the different energy to connect system lines directly to each other. In the event of an error, the locking device stops abrupt increase in the voltage between the connections score the respective series connections for bridging of these connections firmly. As a result, two Parallel resonance circuits formed to overcurrent the various power system lines with a large one Limit impedance according to the parallel resonances.

Such a conventional series-parallel resonance circuit according to JP-PS 9 87 109 is advantageous in so far than the transition stability of the systems improved and the Operating mode of the breakers for a circuit breaker breaker is made easier because of the circuit sub a low post-ignition voltage occurs.  

However, such an AC current limiter is not free from shortcomings in practice, in particular there are the following disadvantages:

• - Although there are no problems when the inductance values of the two choke coils are identical and the Capacitance values of the two capacitors also are identical, however, the presence of fluctuations for the components when the deviations in the values are considerable, ensure that a high circulation current flows through the AC limiter.
• - If the locking device there is a non-linear Has resistance element, both capacities remain charged so that a discharge resistor or a Inductor etc. must be provided.
• - If the locking device there is a gap or a Has a closing switch, the current limiting effect better because the resistance value of the in series with the closing device switched resistance smaller becomes. Accordingly, it takes considerable time lapse until in the inductors and Kapa stored electrical energy is reduced, after the power system lines with a circuit interrupters have been interrupted and thus the limited power is interrupted.
• - The resonance of a line inductance in a die energy connecting different energy systems transmission line and a capacity between the Line and earth provide a high frequency vibration current which has an abrupt surge at a high Frequency generated by a current path consisting of one of the capacitors, the resistor and the other of the capacitors flows and therefore hardly the circuit breaker actuated.

The object of the invention is therefore an alternating current specify delimiter of the type mentioned, the improved Has AC limiting properties in operation and works more reliably.

The solution according to the invention is a change to design current limiters of the type mentioned at the beginning, that the further impedance is a first ohmic resistance is, and that the inductance or the capacitance of the second series connection a second ohmic resistance is connected in series, which when closing the Locking device resulting parallel resonant circuit dampened.

In a further development of the alternating current according to the invention it is provided that the closing device has a non-linear element.

The invention is described below with reference to the description of embodiments and with reference to the Drawing explained in more detail. The drawing shows in

Figure 1 is a circuit diagram of a first embodiment of the AC limiter.

Fig. 2 is a circuit diagram of a second embodiment of the AC limiter;

Fig. 3 is an equivalent circuit diagram that includes the alternating current limiter according to Fig. 1 or 2; and in

FIG. 4 characteristic waveforms as a result of a computer simulation in the equivalent circuit diagram according to FIG. 3.

Throughout the figures in the drawing, the same reference symbols are used for the same or corresponding parts or assemblies, reference being first made to FIG. 1. Fig. 1 shows a first embodiment of the AC limiter according to the invention. This is the block drawn with a broken line, which is generally designated by the reference number 10 and is inserted between two connection points a and b of two different types of electrical systems or energy system lines S 1 and S 2 . For the sake of simplicity, only one phase connection is shown in FIG. 1.

The AC current limiter 10 contains a first series circuit consisting of a choke coil or inductance 12 and a capacitor or a capacitor 14 , and a second series circuit consisting of a choke coil or inductance 12 A and two ohmic resistors 16 and 18 . The first and second series circuits are connected in parallel to one another between the two energy system lines S 1 and S 2 . Between the connection point c of the two ohmic resistors 16 and 18 and the connection point d of the inductor 12 and the capacitance 14 , a closing device 20 is connected, which may be a gap, contacts, a non-linear resistance element or a semiconductor arrangement, for . B. in the form of an inverted parallel connection of silicon-controlled rectifiers.

Since the electrical potentials of the two energy system lines S 1 and S 2 are normally essentially the same size, the potential difference between the two connection points c and d is so low in operation of an AC limiter constructed in this way that the closing device 20 is not actuated or closed . Thus, the closing device 20 is in its open state and thus forms a series resonance circuit consisting of the inductor 12 and the capacitance 14 . This series resonance circuit ensures coordinated operation for the mains frequency in the energy system lines S 1 and S 2 . The total impedance of the AC limiter 10 is essentially zero, and the energy system lines S 1 and S 2 are connected directly to one another.

If a temporary or transient overcurrent flows through the energy system lines S 1 and S 2 when an error occurs, the potential difference between the connection points c and d increases abruptly. By sensing or detecting this abrupt increase in potential difference, the closing device 20 is actuated, with the result that it is closed, by the automatic discharge which takes place via it, if it has a gap, by an external control, if it has a mechanical one Switch or a semiconductor switch, or in that the impedance is automatically reduced to zero when it has a non-linear resistance element. The actuation of the locking device 20 ensures a direct bridging of the connection points or a short circuit between the connection points c and d , two parallel circuits being formed which are connected in series between the two energy system lines S 1 and S 2 . A parallel connection is formed by the capacitance 14 with the inductance 12 A and the ohmic resistor 16 and thus tuned in essence by the capacitance 14 with the inductance 12 A or brought to resonance. The other parallel circuit is formed by the inductance 12 and the ohmic resistor 18 .

The parallel resonance circuit of the capacitance 14 and the inductance 12 A connects the energy system lines S 1 and S 2 via a high impedance and thus suppresses the overcurrent flowing through the energy system lines S 1 and S 2 . In this case, when the resistance value of the ohmic resistor 16 is substantially zero, the total impedance of the AC limiter 10 becomes infinite, so that the overcurrent is suppressed in an extremely effective manner.

The advantageous function of the two ohmic resistors 16 and 18 is explained in more detail below. If the resistance value of the ohmic resistor 16 is substantially zero, the total impedance of the AC limiter 10 , as stated above, will be infinite, so that the overcurrent through the power system lines S 1 and S 2 is suppressed in an extremely effective manner. However, after a fault current through the energy system lines S 1 and S 2 has been limited by the AC limiter 10 and the current between the energy system lines S 1 and S 2 has been interrupted by a circuit breaker (not shown), the inductive energy stored in the inductor 12 A is supplied and the capacitive energy stored in the capacitance 14 circulates a current through the closed current path through the connection points bcd . Then, when the resistance value of the ohmic resistance 16 is small, it will take too much time to thermally dissipate the stored energy, so that a considerable time is required to attenuate or attenuate the circulating current. For this reason, a suitable resistor for the closed circuit is required. This is the reason why the ohmic resistor 16 is provided.

The function of the ohmic resistor 18 is on the one hand to thermally emit the inductive energy stored in the inductor 12 in order to prevent the energy from being emitted to the outside. On the other hand, the further function of the ohmic resistor 18 is to prevent a high-frequency oscillation current, which is generated by the resonance of a line inductance in a power transmission line connecting the energy system lines S 1 and S 2 with a capacitance between the line and earth, as a sudden current collides with a high frequency in a circuit breaker on the side of the energy system line S 1 or S 2 , namely through the current path formed by the following elements: connection point a - ohmic resistance 18 - connection point c - closing device 20 - connection point d - capacitance 14 - connection point b , so that the interruption of the circuit breaker is triggered. Thus, the ohmic resistor 18 is required to have an appropriate resistance value.

It should be noted that there is no problem in allowing the high-frequency oscillation current to flow into the circuit breaker through the current path which is formed by the following elements: connection point a - inductance 12 - connection point d - closing device 20 - connection point c - ohmic resistor 16 - Inductor 12 A - connection point b , since both inductors ensure a high impedance for high frequencies.

A second embodiment of the AC limiter is shown in FIG. 2 of the drawing. This is the block drawn with a broken line, which is generally designated by the reference symbol 30 and which is inserted between the connection points a and b of the energy system lines S 1 and S 2 . Comparing the circuit diagrams in FIG. 2 and in FIG. 1, one can see that the inductors 12 and 12 A and the capacitance 14 in FIG. 1 are replaced by the capacitors 14 and 14 A and the inductor 12 in FIG. 2 have been.

The embodiment according to FIG. 2 works, as is readily apparent to the person skilled in the art, essentially in the same way as the embodiment according to FIG. 1.

Fig. 3 shows an embodiment of an equivalent circuit image, which contains the AC limiter 10 or 30 . The arrangement shown in FIG. 3 includes a circuit breaker CB, a Wechselstrombegrenzer 10 and 30, a line resistance RO, a line inductance LO, and a load ZL, the switches are connected in series with one another and ge parallel to an AC power supply Sac.

FIG. 4 shows simulated waveforms as a function of time, which are obtained at different points in the circuit according to FIG. 3 with a computer, for example if the AC limiter 10 according to FIG. 1 and a gap are used as the closing device 20 .

The reference numerals VS, VC, VL and VLA , which are indicated in the upper representation in FIG. 4, each represent the simulated voltage waveforms of the voltage supply Sac , parallel to the connections of the capacitance 14 , parallel to the connections of the inductor 12 and parallel to the connections of the inductor 12 A. The reference symbol VCB in the second illustration from above denotes the simulated waveform of the voltage in parallel with the electrodes of the circuit breaker CB . The reference numerals IO, IS and IT in the second representation from below in FIG. 4 each denote simulated current waveforms, namely during the normal state of the circuit in FIG. 3, during a short circuit between the short-circuit fault points F 1 and F 2 (cf. Fig. 3) in the normal case where the locking device is not operated, and the limited current in the circuit acc. Fig. 3 in the event of an error during the time when the closing device 20 is actuated. It should be noted that the reference numerals SA, SB and SC in the same representation each indicate the starting point of the electrical line, the point when the short circuit occurs and the interruption termination point. The reference symbols IC, ILA and I 20 in the lowest representation in FIG. 4 represent simulated current waveforms of the capacitance 14 , the inductance 12 A and the closing device 20 .

The following advantages and effects of the circuit described above can be gathered from FIG. 4 of the drawing:

• - It will be a favorable result in terms of Transition stability of energy system lines achieved, because the limited current through a resistor circuit goes through.
• - The post-ignition voltage for a circuit breaker is so low that the circuit breaker mode of operation is facilitated, because the AC limiter forms a closed circuit in the event of a fault, and thus the energy stored in the inductance and the capacitance via the ohmic resistor 16 in the closed circuit thermally emitted, and the high frequency oscillation current due to the line inductance LO and the capacitance between the line and earth is damped by the other ohmic resistor 18 .
• - The circulating current of the AC limiter is damped within a short time by the presence of the ohmic resistors 16 and 18 , so that no discharge inductance or no discharge resistor are required for the capacitance.

Claims (3)

1. AC current limiter, which is switched between two different types or phases of energy system lines (S 1 , S 2 ) and has the following features:

• - A first series connection of capacitance ( 14 ) and inductance ( 12 ), the series resonance frequency of which is matched to the AC frequency, connects the energy system lines (S 1 , S 2 );
• - A second series connection, which contains at least one inductance ( 12 A) or a capacitance ( 14 A) and a further impedance ( 18 ), is connected in parallel with the first series connection;
• - A normally open and closing when an error occurs closing device ( 20 ) for the electrical connection of two points (c, d) is arranged between the two series connections such that when closing or when connecting the points (c, d) at least one resonant circuit either consisting of the capacitance ( 14 ) of the first series connection and the inductance ( 12 A) of the second series connection, or consisting of the inductance ( 12 ) of the first series connection and the capacitance ( 14 A) of the second series connection,

characterized in that the further impedance is a first ohmic resistor ( 18 ), and in that a second ohmic resistor ( 16 ) is connected in series to the inductance ( 12 A) or capacitance ( 14 A) of the second series circuit, which is the same when closing the locking device ( 20 ) resulting parallel resonant circuit ( 12 A to 14; 12 to 14 A) damped. 2. AC current limiter according to claim 1, characterized in that the closing device ( 20 ) has a non-linear element.